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Wood degradation

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Wood degradation

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This Special Issue of Coatings presents the newest research outcome in the field of the enhancement of native wood properties through a wide range of chemical, biological, and physical agents. The broad spectrum of topics provides a comprehensive update regarding ongoing research in this field. Such a compilation can be an inspiration for the further development of multifunctional and sustainable coatings, revolutionizing the wood sector of the future.

Technology: general issues --- tropical wood --- surface preservation --- wood weathering --- FTIR --- weathered wood roughness --- wood degradation --- brown rot --- white rot --- soft rot --- mechanisms of decay --- coating performance --- bioproducts --- bio-coatings --- seaweeds --- Posidonia oceanica --- lignocellulosic materials --- wood composite panels --- photodegradation --- SEM imaging --- FT-IR spectroscopy --- thin samples --- accelerated natural weathering --- mass-timber --- surface protection --- outdoor exposure --- cross-laminated timber --- Arctic driftwood --- natural modification --- cutting forces --- larch wood --- sawing process --- laminated wood --- meranti --- fir --- physical properties --- mechanical properties --- wood-frame windows --- thermal transmittance --- modified wood --- functional wood --- multifunctional wood --- nanotechnology --- transparent wood --- durability --- weathering --- fire performance --- wood modification --- life cycle assessment --- carbon storage --- artificial aging --- coating --- gloss --- properties --- varnish --- black alder wood --- natural weathering --- acetylation --- coatings --- service life performance --- aesthetic --- bio-based coating --- aesthetics --- living fungal cells --- bioinspired materials design --- tropical wood --- surface preservation --- wood weathering --- FTIR --- weathered wood roughness --- wood degradation --- brown rot --- white rot --- soft rot --- mechanisms of decay --- coating performance --- bioproducts --- bio-coatings --- seaweeds --- Posidonia oceanica --- lignocellulosic materials --- wood composite panels --- photodegradation --- SEM imaging --- FT-IR spectroscopy --- thin samples --- accelerated natural weathering --- mass-timber --- surface protection --- outdoor exposure --- cross-laminated timber --- Arctic driftwood --- natural modification --- cutting forces --- larch wood --- sawing process --- laminated wood --- meranti --- fir --- physical properties --- mechanical properties --- wood-frame windows --- thermal transmittance --- modified wood --- functional wood --- multifunctional wood --- nanotechnology --- transparent wood --- durability --- weathering --- fire performance --- wood modification --- life cycle assessment --- carbon storage --- artificial aging --- coating --- gloss --- properties --- varnish --- black alder wood --- natural weathering --- acetylation --- coatings --- service life performance --- aesthetic --- bio-based coating --- aesthetics --- living fungal cells --- bioinspired materials design

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This Special Issue of Coatings presents the newest research outcome in the field of the enhancement of native wood properties through a wide range of chemical, biological, and physical agents. The broad spectrum of topics provides a comprehensive update regarding ongoing research in this field. Such a compilation can be an inspiration for the further development of multifunctional and sustainable coatings, revolutionizing the wood sector of the future.

Technology: general issues --- tropical wood --- surface preservation --- wood weathering --- FTIR --- weathered wood roughness --- wood degradation --- brown rot --- white rot --- soft rot --- mechanisms of decay --- coating performance --- bioproducts --- bio-coatings --- seaweeds --- Posidonia oceanica --- lignocellulosic materials --- wood composite panels --- photodegradation --- SEM imaging --- FT-IR spectroscopy --- thin samples --- accelerated natural weathering --- mass-timber --- surface protection --- outdoor exposure --- cross-laminated timber --- Arctic driftwood --- natural modification --- cutting forces --- larch wood --- sawing process --- laminated wood --- meranti --- fir --- physical properties --- mechanical properties --- wood-frame windows --- thermal transmittance --- modified wood --- functional wood --- multifunctional wood --- nanotechnology --- transparent wood --- durability --- weathering --- fire performance --- wood modification --- life cycle assessment --- carbon storage --- artificial aging --- coating --- gloss --- properties --- varnish --- black alder wood --- natural weathering --- acetylation --- coatings --- service life performance --- aesthetic --- bio-based coating --- aesthetics --- living fungal cells --- bioinspired materials design --- n/a

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This book is a selection of manuscripts devoted to the conservation and preservation of wooden cultural heritage. The articles present the new methods for conservation of various historical wooden artefacts, reliable modern techniques for characterisation of the wood structure, properties and degree of degradation, and discusses problems and doubts related to all aspects of conservation and re-conservation of wooden cultural heritage. It contains both review and research papers to give the readers a broader picture of the problems and issues related to the conservation of wooden historical objects and structures. We need to remember that wooden cultural heritage is an integral part of our culture and history that define our humanity. We are obliged to protect it, save it from oblivion, and preserve it for future generations.

The arts --- X-ray photoelectron spectroscopy (XPS) --- X-ray diffraction (XRD) --- dynamic vapor sorption (DVS) --- archaeological wood --- wood conservation and preservation --- piles --- waterlogged wood --- soft rot --- decay --- microscopy --- degraded wood --- silane --- FT-IR --- alkoxysilanes --- wood-silane interactions --- wood stabilisation --- wood conservation --- silane treatment --- reliquary --- electron microscopy --- wood --- restoration --- halloysite nanotubes --- Nanhai No. 1 shipwreck --- waterlogged archaeological wood (WAW) --- wood properties --- microbial composition --- gap-fillers --- gap-filling materials --- wooden artefacts --- wood exposed outdoors --- microballoons --- resins --- glass beads --- cellulose powder --- binders --- hygrothermal performance --- timber buildings --- cultural heritage --- numerical simulations --- monitoring and sensors --- climate models --- fungi identification --- mold growth modelling --- soda lignin --- penetration --- infrared spectroscopy (ATR-FTIR) --- pyrolysis gas chromatography mass spectrometry (Py-GC/MS) --- scanning electron microscopy (SEM) --- historical wood --- wood degradation --- artefact --- heritage --- conservation --- cultural conservator --- consolidation --- sorption --- degradation --- drying --- PEG --- alum --- reburial --- in situ preservation --- medieval shipwreck --- charred wood --- chemical analysis --- EDS --- FTIR --- XRD --- proximate analysis --- PEG treatment --- acetic acid --- volatile emissions --- GC–MS --- marine archaeological wood --- moisture content --- polyethylene glycol --- computational modelling --- Mary Rose --- predictive model --- archaeological wooden structures --- structural analysis --- geodetic systems --- drying process --- heritage wood --- sustainability --- bio-based polymers --- consolidants --- X-ray photoelectron spectroscopy (XPS) --- X-ray diffraction (XRD) --- dynamic vapor sorption (DVS) --- archaeological wood --- wood conservation and preservation --- piles --- waterlogged wood --- soft rot --- decay --- microscopy --- degraded wood --- silane --- FT-IR --- alkoxysilanes --- wood-silane interactions --- wood stabilisation --- wood conservation --- silane treatment --- reliquary --- electron microscopy --- wood --- restoration --- halloysite nanotubes --- Nanhai No. 1 shipwreck --- waterlogged archaeological wood (WAW) --- wood properties --- microbial composition --- gap-fillers --- gap-filling materials --- wooden artefacts --- wood exposed outdoors --- microballoons --- resins --- glass beads --- cellulose powder --- binders --- hygrothermal performance --- timber buildings --- cultural heritage --- numerical simulations --- monitoring and sensors --- climate models --- fungi identification --- mold growth modelling --- soda lignin --- penetration --- infrared spectroscopy (ATR-FTIR) --- pyrolysis gas chromatography mass spectrometry (Py-GC/MS) --- scanning electron microscopy (SEM) --- historical wood --- wood degradation --- artefact --- heritage --- conservation --- cultural conservator --- consolidation --- sorption --- degradation --- drying --- PEG --- alum --- reburial --- in situ preservation --- medieval shipwreck --- charred wood --- chemical analysis --- EDS --- FTIR --- XRD --- proximate analysis --- PEG treatment --- acetic acid --- volatile emissions --- GC–MS --- marine archaeological wood --- moisture content --- polyethylene glycol --- computational modelling --- Mary Rose --- predictive model --- archaeological wooden structures --- structural analysis --- geodetic systems --- drying process --- heritage wood --- sustainability --- bio-based polymers --- consolidants